DSM has teamed up with Novomer, a company in Waltham,
Massachusetts, in which it holds a minority stake, to jointly develop a coating
and adhesive resins using carbon dioxide (CO2) as raw material.
In 2007, this development agreement followed by a
cooperation and investment by DSM Venturing into Novomer. A joint development
project is expected to benefit from DSM access to markets and technology, as
well as the technique of polymerization of CO2 Novomer.
Novomer develop chemistry and process technology to
produce polymers from CO2 and propylene oxide (PO), while DSM will convert the
polymers and resins in the formulation for applications such as coatings,
adhesives and graphic arts. Companies have found the initial results
encouraging and suggest that this project could lead to new and better
properties of the coatings applied.
Once developed, the first polycarbonate resin used in
applications such as paints, adhesives, inks and certain. The resin is made up
to 50% by weight of CO2, so that not only remove CO2 from the atmosphere, but
you also need the use of fossil fuels, raw materials and require less energy to
produce than existing alternatives.
The production of this new material could begin next year
and while the initial volume will necessarily be modest, it is technically
possible that the new polycarbonate resin will become a common ingredient of
coatings and other applications where conventional polycarbonates are used.
Rob van Leen, Chief Innovation Officer, DSM, said: "DSM and Novomer trying to develop the
first polymer is more than a decade to reach the finish this traditional
industry is an exciting development may lead to a breakthrough that could
change the industry, adding to the problems of cost, these innovative resins to
address and performance on environmental issues. Therefore, they fit perfectly
in the DSM "people, planet and profit approach '."
DSM and Novomer development project provides a
fascinating insight into future production.
Climate change is a reality, and forward-thinking
manufacturers hope to replace fossil fuels based on building blocks with more
efficient alternatives that reduce and, ideally, prevent greenhouse gas
emissions.
This may mean developing products and processes that produce
the same end result of reducing greenhouse gas emissions, or a more fundamental
shift away from fossil fuels in favor of bio-materials such as plant material.
This has already resulted in biofuels and other materials from biorenewable
sources.
While the jump from materials based on fossil fuels to
bio-based materials represent an evolutionary transformation of the chemical
industry, DSM and Novomer, cooperation goes further, since polycarbonate resin
developed by the two parties use actual CO2, which should not be
"grown", but can be extracted directly from the atmosphere.
Source: www.impreglon.com/
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